Design, Docking, Synthesis, and Biological Evaluation of Pyrazolone Derivatives as Potential Dual-Action Antimicrobial and Antiepileptic Agents
Yousef Al-ebini, Manojmouli Chandramouli, Naga Prashant Koppuravuri, Thoppalada Yunus Pasha, Mohamed Rahamathulla, Salwa Eltawaty, Kamal Y. Thajudeen, Mohammed Muqtader Ahmed, Thippeswamy Boreddy Shivanandappa

TL;DR
This study designs and tests new pyrazolone compounds that show promise as dual-action treatments for both antimicrobial resistance and epilepsy.
Contribution
The paper introduces a novel pyrazolone scaffold with dual antimicrobial and antiepileptic activity, validated through in silico and experimental methods.
Findings
Compound IIa showed potent antimicrobial activity against E. coli and S. aureus and delayed seizure onset in mice.
Compound IIa exhibited superior binding affinity (−7.57 kcal/mol) to bacterial and neuronal targets compared to standards.
Compounds Ia and Id showed selective antimicrobial activity against E. coli and P. aeruginosa, respectively.
Abstract
Background/Objectives: Epilepsy is characterized by unpredictable seizures and drug resistance, along with rising antimicrobial resistance (AMR), highlighting the urgent need for innovative dual-action therapies. This study aimed to design, develop, and evaluate novel pyrazolone derivatives for a dual antimicrobial and antiepileptic potential. Methods: Novel pyrazolone derivatives were designed, synthesized (using 2,4-dinitrophenylhydrazine/semicarbazide condensation with ethyl acetoacetate), and evaluated through molecular docking against antimicrobial (4URM, 3FYV, 3FRA) and neuronal targets (4COF, 5TP9, 5L1F). The in vitro antimicrobial activity was assessed against Gram-positive (S. aureus) and in vitro Gram-negative (E. coli, P. aeruginosa) strains via agar cup plate assays, while in vivo antiepileptic efficacy was tested in a PTZ-induced seizure model in Swiss albino mice. Results:…
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Taxonomy
TopicsPhenothiazines and Benzothiazines Synthesis and Activities · Synthesis and biological activity · Neuroscience and Neuropharmacology Research
